RU201850U1 - RAIL VEHICLE TROLLEY - Google Patents

Abstract

The utility model relates to railway rolling stock, in particular to freight car bogies. The bogie of a rail vehicle consists of a cross beam (1), longitudinal sidewalls (2), wheelset bearing assemblies (3), a spring set of springs (4) and dynamic vibration dampers (5), installed coaxially inside the coil springs of a spring set (4) , and consisting of vibration damper springs (6) and (7), and located between them inertial masses (8). The springs of vibration dampers are fixed in the vertical position by collars of longitudinal sidewalls (9) and collars (10) of base plates (11), connected to the transverse beam (1) by means of ball pins (12) and elastic supports (13). This design provides an increase in the efficiency of vibration damping during the movement of rolling stock with any load and the durability of car bogies by bringing the total variable forces and moments transmitted during the vibration process to the rolling stock frame to zero. 2 wp f-ly, 3 dwg

Description

The utility model relates to railway rolling stock, in particular to freight car bogies, and can be used in the design of wagon bogies.

To increase the durability and increase the average operating speed of movement on railway transport, it is necessary to ensure effective damping of vibrations of wagon bogies and reduce dynamic loads on structural elements of the rolling stock.

A shock-absorbing device for a railway car is known (see RF patent No. 2259292, IPC B61F 5/12), installed on a carriage bogie, consisting of a transverse beam, longitudinal sidewalls, bearing assemblies of wheel pairs and spring sets of springs, and equipped with friction wedge vibration dampers and elastic elements. The damping of vibrations in this design is carried out due to the appearance of a frictional force in the friction wedge vibration dampers, the functional connection between which and the rest of the structure of the carriage is provided by elastic elements.

The disadvantages of this device are the need for radical changes in the design of the carriage bogie, the impossibility of adjusting to the actual weight of the rolling stock and the presence of friction surfaces, the contamination of which during operation significantly affects the quality of depreciation.

The closest in technical essence to the claimed utility model is a vehicle bogie (see RF patent No. 2271294, IPC B61F 5/30), containing a transverse beam, longitudinal sidewalls, bearing assemblies of wheel pairs, spring sets of springs, elastic bearing surfaces, double-hinged links and vibration dampers, wherein the vibration dampers are located above the bearing assemblies and are made in the form of elastic rubber-metal blocks, the cavities of which are divided into two chambers communicating with each other through the throttle hole, the first of which is filled with a working fluid, and the second contains an elastic diaphragm.

The disadvantages of this device are the complexity of the modernization of the carriage bogie due to the need to install double-hinged links and vibration dampers, the impossibility of adjusting to the actual mass of the rolling stock and the insufficient durability of the proposed design due to the presence of two-chamber rubber-metal blocks partially filled with working fluid.

The technical task of the claimed utility model is the possibility of modernizing the carriage bogie with minimal design changes, providing effective vibration damping when moving both empty and loaded rolling stock, as well as increasing the durability of carriage bogies.

To solve the problem, a bogie of a rail vehicle, consisting of a transverse beam rigidly connected to the longitudinal sidewalls connected to the bearing assemblies of wheelsets, elastic supports of the transverse beam, spring sets of springs and vibration dampers, vibration dampers are installed coaxially with the helical springs of the spring sets, and each the damper is made of upper and lower springs and an inertial mass located between them, and the springs with their supporting surfaces are fixed between the collars mounted on the longitudinal sidewall and the base plate connected to the cross beam by means of a ball pin installed in the elastic support of the cross beam, while the inertial masses are made of cast iron and have annular grooves for installing the damper springs.

The essence of the technical solution is a bogie of a rail vehicle is illustrated by drawings, where in FIG. 1 shows a general view of a wagon bogie, Fig. 2 section along AA, in Fig. 3 design of a dynamic vibration damper and a bogie assembly diagram.

The bogie of a rail vehicle consists of a transverse beam 1, rigidly connected to the longitudinal sidewalls 2, connected to the bearing assemblies of wheel pairs 3, spring sets of springs 4, dynamic vibration dampers 5, installed coaxially and with a gap inside the coil springs of the spring set 4 and consisting of springs vibration dampers 6 and 7 and inertial masses 8 located between them, and the springs of vibration dampers are fixed in a vertical position in the lower part between the collars 9 welded to the longitudinal sides 2, and in the upper part are fixed by collars 10 welded to the base plates 11. Base plates 11 are connected to the transverse beam 1 by means of ball pins 12 welded to the upper surface of the base plates through the elastic supports 13, made reciprocal, and mounted in the transverse beams 1. Inertial masses 8 are made in the form of cylinders made of cast iron. For installation of springs 6 and 7, inertial masses 8 have annular grooves. Elastic supports 13 are made of elastic material with a high coefficient of friction.

The trolley is assembled as follows. On the longitudinal sidewalls 2, the bearing assemblies of the wheelsets 3 are mounted and the external springs of the spring set 4 are installed on the supporting surfaces of the sidewalls 2. Inside the external springs of the spring set 4, springs 7, inertial masses 8 and the springs 6 of the dynamic vibration damper 5 are installed in turn 5. External springs of the spring set 4 and the springs 7 of the dynamic vibration damper 5 are fixed on the supporting surfaces of the longitudinal sidewalls 2, fixed during manufacture by welding with the collars of the longitudinal sidewalls 9. Then, the support plates 11 with the collars 10 welded during the manufacture to fix the springs are installed on the springs. Ball pins 12 are fixed on the upper surfaces of the base plates 11 by welding 12. A transverse beam 1 with pressed-in elastic supports is introduced into the spring openings of the longitudinal sidewalls 2 13. The cross beam 1 is lowered onto the base plates 11, a set of springs of a spring set 4 and springs of dynamic vibration dampers 6, in this case, the hemispherical surfaces of the ball pins 12 mate with the working surfaces of the elastic supports 13. After installing and securing the axle boxes of the wheel pairs using threaded connections in the bearing assemblies 3, the bogie of the rail vehicle is ready for operation.

The work of the proposed design of the vehicle bogie is as follows. The resulting vibrations of the wheelsets cause similar vibrations of the bearing assemblies 3 and longitudinal sidewalls 2. The springs of the spring set 4 transmit to the cross beam 1 and then to the rolling stock frame variable forces proportional to the stiffness of the springs of the spring set 4 and the amplitude of the vibrations that occur. Inertial masses 8, selected by calculation in terms of size and weight (moreover, the efficiency of inertial masses for damping vibrations increases with an increase in their weight, therefore, cast iron is used for their manufacture) and installed coaxially with the springs of the spring set 4, oscillate in antiphase to the vibrations of the longitudinal sidewalls 2 due to forces transmitted to them by springs 7. As a result, since the direction of the forces in the springs of the spring set 4 and in the springs 6 are opposite and equal in magnitude, the total variable forces and moments transmitted to the rolling stock frame become equal to zero while maintaining the vibration amplitude of the bearing assemblies 3 and longitudinal sidewalls 2. Since when the rolling stock is loaded in proportion to the load, the springs of the spring set 4 and the springs 6 and 7 are simultaneously compressed, equally changing their characteristics, the efficiency of vibration damping does not depend on the load mode. The coaxiality of the installation of the springs and the possibility of compensating for the longitudinal and transverse movements arising during the operation of the vehicle bogie is ensured by the collars of the longitudinal sidewalls 9, the collars of the base plates 10, the ball pins 12 of the base plates 11 and the elastic supports 13.

Due to the constant change in the profile of the railway track, when the rolling stock moves, oscillations of wheelsets of various frequencies and amplitudes occur. When installing vibration dampers out of alignment with the main working elastic elements and with the help of other elastic elements, as is done in the selected prototype, variable forces transmitted by the main elastic elements and elastic elements of the damper are applied at various points of the structure, which significantly reduces the efficiency of vibration damping.

The use of dynamic vibration dampers, consisting of vibration damper springs and inertial masses located between them and installed coaxially inside the coil springs of the spring set, and base plates connected to the transverse beam by means of a ball pin and elastic supports, makes it possible to increase the efficiency of vibration damping when moving as empty, and loaded rolling stock, as well as to ensure an increase in the durability of wagon bogies by bringing the total variable forces and moments transmitted in the process of vibrations to the rolling stock frame to zero.

Claims (3)

1. A bogie of a rail vehicle, consisting of a transverse beam with elastic supports rigidly connected to the longitudinal sidewalls connected to the bearing assemblies of wheelsets, spring sets of springs and vibration dampers, characterized in that the vibration dampers are installed coaxially with the helical springs of the spring sets, and each The damper is made of upper and lower springs and an inertial mass located between them, and the springs with their support surfaces are fixed between the collars mounted on the longitudinal sidewall and the base plate connected to the transverse beam by means of a ball pin installed in the elastic support of the transverse beam. 2. A bogie of a rail vehicle according to claim 1, characterized in that the inertial masses have annular grooves for mounting the damper springs. 3. A bogie of a rail vehicle according to claim 1 or 2, characterized in that the inertial masses are made of cast iron.

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